DE3012175A1 - Temp. regulator for electric cooker plate - has compensation device for ambient temp. for min. regulation disparity - Google Patents

Abstract

The cooker temp. regulator has a bimetallic switch set to a required response temp. by a manual control. A compensation device compensates the effect of the ambient temp. on the bimetallic switch. The setting control comprises a cam disc (13) acting on a transfer lever (14) or a spring arm for adjusting the position of the cooperating switch contacts (7,8). The compensation device comprises a bimetallic element (22) responding to the ambient temp. to adjust the action of the transfer lever (14) or spring arm. The bimetallic switch contacts (7,8) are adjusted via a rigid pivoted lever (14) with a movable switch pin (20) acting on one of these contacts (8) adjustable along the lever (14) under control of the compensation bimetallic element (22).

Description

Temperature regulators for heating points, in particular energy regulators

for hotplates in electric cookers The invention is based on one Temperature controller according to the preamble of claim i.

In a known power control device (German Offenlegungsschrift 26 25 715), which has an energy regulator with a self-heated working bimetal and a Contains compensation bimetal, is used to sense the respective position of a setpoint cam disk (Control element or setting shaft) is essentially U-shaped around a pivot axis pivotable transmission lever is provided, one arm of which has a snap spring contact and whose other arm is formed by a compensation bimetal spring, which is pressed by a spring against the cam disk of the control element. the Compensation bimetal spring is relatively long and has its own elasticity, which can vary with material fluctuations.

Because of these possible variations in elasticity and through the superposition of elastic behavior and bimetal deformation can result in considerable, result in undesired control deviations.

The invention is based on the object of providing a temperature controller to be designed in such a way that such system deviations are avoided will.

This object is achieved by an embodiment of the temperature controller according to the features specified in the characterizing part of claim i. Through this becomes a close approximation of the ideal case of a compensation device achieved, namely to a transmission lever, which in terms of its transmission function is largely unaffected by the elasticity and deformation behavior of an elongated Bimetal spring.

In the advantageous development according to claim 2 that is Compensation bimetal as a separate part mechanically connected to a spring arm, its transfer and scanning function of the elasticity and change in shape of the Compensation bimetal is not adversely affected.

According to an alternative embodiment of the invention according to claim 3 and 4 a rigid, dimensionally stable translation lever is provided, its relative Position to the control element (cam disk) or to the working contact completely unaffected is on the function of the compensation bimetal.

Correspondingly through the respective position of the compensation bimetal the ambient temperature is only the position of the stored in the transmission lever Switching pin changed0 Finally, the result is a largely wear-free Execution of the temperature controller according to the invention in that between the switching bimetal the bimetal switch and the adjustable by the control element, a contact spring of the bimetal switch having spring arm a ball for power transmission stored is. In this way, there is wear and tear at the point of contact between the working bimetal and contact spring of the temperature-compensated switching element practically completely avoided.

Further advantageous details of the invention emerge from the Embodiments shown in the drawing and described below.

FIG. 1 shows a first embodiment of the temperature controller according to the invention in sectional view, FIG. 2 shows a second embodiment of the temperature regulator similar to FIG. 1, 3 shows the sectional view of a third embodiment of the temperature regulator according to the invention.

In the exemplary embodiment according to FIG. I, 1 is generally a housing denotes, on and in which by means of an adjusting screw 2 a generally designated 7 Energy regulator is attached, the height by turning the adjusting screw 2 can be adjusted. The energy regulator 3 has one mounted on the adjusting screw 2 Block 42 on which in turn a working or switching bimetal 5 is mounted, which as elongated, cantilevered bimetallic spring is formed and from one Bimetal heater 6 is surrounded at the free end of the working bimetal 5 is a pressure approach 40 attached, while the block 4 also carries a stationary switch contact 7, which interacts with a movable switching contact 8. The movable switch contact 8 is arranged on a snap contact spring 9 of a spring arm attached to the block 4 10, the at its free spring end a bearing opening or bearing recess has, in which a ball ii is mounted, such that this ball between the Pressure approach 40 of the working bimetal 5 and the spring arm 10 is clamped and to it serves, the pressure force emanating from the working bimetal 5 when it is deformed the spring arm 10 and thus towards the snap contact spring 9 with as little friction as possible transfer.

An essential part of the explained temperature controller is also a control element that can be operated manually, e.g. by means of a selector knob, is formed by a rotating shaft 12 and a cam disc 13 arranged thereon in a rotationally fixed manner Transfer of the contour of the cam disk 13 to the bimetal switch explained above is a trained in the form of a rigid molded part transmission lever 14, the on one side within a cam disk 13 comprehensive recess 15 a Has sensing projection 16 which is resiliently pressed against the cam disk 13, and which transmission lever 14 is pivotable about a pivot shaft 17 attached to the housing 1 is and so the contour of the cam 13 is able to follow. For the storage of the Pivot shaft 17 is used by a bearing groove 180 that is open on one side is also provided with a continuous bearing opening 19, in the eiz bearing pin 20 is guided displaceably, the length of this bearing pin6 20 is greater than the thickness of the transmission lever 14. At the one opposite the sensing attachment 16 The free end of the transmission lever 14 is fastened by a rivet 21 is a leaf spring-like one Compensation bimetal 22, which is attached to the lower boundary surface of the transmission lever in FIG 14 rests flatly and thereby the bearing groove 18 and partly also the bearing opening 19 covered. The compensation bimetal 22 is thus in a position in which it is thermally through the serving as an umbrella element via transmission lever 14 opposite the bimetal heater 6 des Working bimetal 5 shielded is.

The electrical connections of the bimetal heater 6 and the switching contacts 7 and 8 are not shown in the drawing for the sake of clarity.

The function of the explained temperature controller is as follows: The switching contacts are in the zero position of the energy regulator shown in FIG 7, 8 open and thus the heating circuit of a hotplate not shown interrupted. Here, the transmission lever 14 is supported with its sensing attachment 16 on a raised cam extension 23 of the cam disk 13.

By turning the control element and thus the cam disk 17 The transmission lever 14 in FIG i pivoted downwards, with which the spring arm supported on the switching pin 20 10 follows this movement, connected with an actuation of the snap contact spring 9 in the closed position in which the switching contacts 7 and 8 are closed. Corresponding the energy regulator principle takes place via the bimetallic heater 6 a heating of the Working bimetal 5, which over the pressure approach 40 and the ball ii when reaching a predetermined temperature and thus change in shape on the working bimetal 5 eipe opening the switching contacts 7, 8 causes until the working bimetal, which is unheated at this point in time has cooled down again to such an extent that it has returned to the rest position shown in FIG is, with which the switching contacts are closed again. During these control processes the compensation bimetal 22 compensates or adjusts the Control cycle to the ambient temperature surrounding the temperature controller, e.g. within of an electric cooker0 As the ambient temperature rises, the corrosion bimetal rises 22 slightly from the boundary surface of the transmission lever 14, whereby the relative Position of the switching pin 20 to the transmission lever 14 and to the spring arm 10 is changed.

The exemplary embodiment according to FIG. 2 differs essentially only by a different embodiment of the transmission lever designated by 24 in FIG. The other, essentially the same as the embodiment according to FIG Parts of this temperature controller are not explained again; to their function reference is made to the description below. The transmission lever 24, which also is designed as a molded part, has a one-sided open similar to Figure i Bearing groove 25 for the storage of the pivot shaft 17 attached to the housing i. on on the other side, the transmission lever 24 has a sensing attachment 26 for filling the contour of the cam disk 13. Between the swivel axis and the sensing attachment is in one through bearing opening 27, a shift pin 28 slidably guided on the one hand Via a plate-like spring 29, for example, and a pin head 30 on the upper one in FIG Boundary surface of the transmission lever 24 is resiliently supported and is provided with a locking washer 31 below the transmission lever 24. Between the lower boundary surface of the transmission lever 24 and the locking washer 31 there is a compensation bimetal, generally denoted by 32 of two outer bimetallic discs 33 and an inner intermediate disc 34. When raised the ambient temperature, i.e. in the case of compensation, the bimetal disks bulge 33 like a plate spring in different directions and press the Switching pin 27 on the locking washer 31 in the direction of the arrow in Figure 2 down. against the force of the spring 29.

The exemplary embodiment according to FIG. 3 also differs essentially only through a different design of the transmission lever. Again, refer to the description pointed to figure t. The transmission lever 35 consists of a one-sided in the Block 3 clamped spring arm in the form of a leaf spring on which the snap contact spring 9 is mounted with switching contact 8 and on which the working bimetal 5 via pressure approach 40 and ball 11 attacks. With a compensation bimetal is referred to, which is on the point 37 is attached to the spring arm 35, a V-shaped curved sensing attachment 38 and is supported with the free end on the spring arm 35 in the rest position.

As the ambient temperature increases, the free end rises of the compensation bimetal 36 from the spring arm 35, connected with an adjustment of the entire spring arm 35 according to the ambient temperature to be compensated.

In all the embodiments explained, the temperature controller or the energy regulator is attached to the free end of a control shaft 2 via block 4, felche control shaft is mounted on the housing t. According to Figure 3 is between the block 4 and housing 1, a compression spring 39 is arranged. By twisting the with a thread provided adjusting shaft 2 can be the height of the energy regulator or its positional relative arrangement to the control element or cam disk, which is also mounted on the housing i 13 can be changed or adjusted in a simple manner.

Claims 3 figures Blank page

Claims (9)

Claims 1. Temperature controller for heating points, in particular Energy regulator in electric cookers, with a control unit from IIand to the Bimetallic damper adjustable to the desired spot temperature as well as with a Compensation device to compensate for the influences of the ambient temperature on the Bimetallscllalters d a d u r c h e k e n n n z e i c h -n e t that on one actuating element (transmission lever 14, 24, spring arm 35) for the optional setting of the interacting switching contacts (7, 8) of the bimetal switch relative to each other a compensation bimetal (22, 32, 36) is arranged, which is relative to the influence of the ambient temperature is adjustable relative to the actuator. 2. Temperature regulator according to claim 1, characterized in that the Compensation bimetal (36) on a snap contact spring (9) of the bimetal switch having spring arm (35) is arranged and as an attack part (sensing attachment 38) for the control element, which is preferably designed in the form of a cam disk (17) is. 3. Temperature regulator according to claim 1, characterized in that as Actuating element a pivotable, rigid transmission lever (14, 24) is provided is on which a shift pin (20, 28) movable relative to the transmission lever is guided is, which is supported by a compensation bimetal (22, 32) mounted on the transmission lever is automatically adjustable, 4. Temperature controller according to claim 3, characterized in that that the switching pin (20) loosely in a bearing opening (19) of the transmission lever (11A) is guided, which bearing opening of the one-sided attached to the transmission lever btattfeder-like Compensation bimetal (22) at least in part is covered. 5. Temperature controller according to claim 3 and 4, characterized in that that the transmission lever (14) is designed as a rigid molded part in the area between the bearing opening (19) for the switching pin (20) and the fastening point for the compensation bimetal (22) a one-sided open, from the compensation bimetal has covered bearing groove (i8) for a pivot shaft (17). 6. Temperature regulator according to claim 3, characterized in that the Switching pin (28) with a plate spring-like, on the transmission lever (24) in the area A compensation bimetal attached to an La-bearing opening (27) for the switch pin (92) is coupled, by means of which the switch pin counteracts the spring force (spring 29) is adjustable. 7. Temperature controller according to one or more of the preceding claims, with a self-heated bimetal switch of an energy regulator, characterized in that that the compensation bimetal (22, 32, 36) from the bimetal heater (6) through a Shielding element, preferably thermally shielded by the actuating element. 8. Temperature controller, in particular according to one or more of the preceding Claims, characterized in that! between the working bimetal (5) of the bimetal switch and a switching contact which can be adjusted by the control element (cam disk 13) (8) of the bimetal switch having spring arm (10, 35) a ball (ii) for power transmission is stored. 9. Temperature controller, in particular according to one or more of the preceding Claims, characterized in that it is attached to an adjusting shaft (2), which in turn on a housing carrying the operating element (cam disk 17) (1) is stored and adjustable with respect to the control element.